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Discovery of cellular mechanism to maintain brain’s energy could benefit late-life brain health

July 3, 2024
in Medicine
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Discovery of cellular mechanism to maintain brain’s energy could benefit late-life brain health
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A key mechanism which detects when the brain needs an additional energy boost to support its activity has been identified in a study in mice and cells led by UCL scientists.

A key mechanism which detects when the brain needs an additional energy boost to support its activity has been identified in a study in mice and cells led by UCL scientists.

The scientists say their findings, published in Nature, could inform new therapies to maintain brain health and longevity, as other studies have found that brain energy metabolism can become impaired late in life and contribute to cognitive decline and the development of neurodegenerative disease.

Lead author Professor Alexander Gourine (UCL Neuroscience, Physiology & Pharmacology) said: “Our brains are made up of billions of nerve cells, which work together coordinating numerous functions and performing complex tasks like control of movement, learning and forming memories. All of this computation is very energy-demanding and requires an uninterrupted supply of nutrients and oxygen.

“When our brain is more active, such as when we’re performing a mentally taxing task, our brain needs an immediate boost of energy, but the exact mechanisms that ensure on-demand local supply of metabolic energy to active brain regions are not fully understood.”

Prior research has shown that numerous brain cells called astrocytes appear to play a role in providing the brain neurons with energy they need. Astrocytes, shaped like stars, are a type of glial cell, which are non-neuronal cells found in the central nervous system. When neighbouring neurons need an increase in energy supply, astrocytes jump into action by rapidly activating their own glucose stores and metabolism, leading to the increased production and release of lactate. Lactate supplements the pool of energy that is readily available for use by neurons in the brain.

Professor Gourine explained: “In our study, we have figured out how exactly astrocytes are able to monitor the energy use by their neighbouring nerve cells, and kick-start this process that delivers additional chemical energy to busy brain regions.”

In a series of experiments using mouse models and cell samples, the researchers identified a set of specific receptors in astrocytes that can detect and monitor neuronal activity, and trigger a signalling pathway involving an essential molecule called adenosine. The researchers found that the metabolic signalling pathway activated by adenosine in astrocytes is exactly the same as the pathway that recruits energy stores in the muscle and the liver, for example when we exercise.

Adenosine activates astrocyte glucose metabolism and supply of energy to neurons to ensure that synaptic function (neurotransmitters passing communication signals between cells) continues apace under conditions of high energy demand or reduced energy supply.

The researchers found that when they deactivated the key astrocyte receptors in mice, the animal’s brain activity was less effective, including significant impairments in global brain metabolism, memory and disruption of sleep, thus demonstrating that the signalling pathway they identified is vital for processes such as learning, memory and sleep.

First and co-corresponding author Dr Shefeeq Theparambil, who began the study at UCL before moving to Lancaster University, said: “Identification of this mechanism may have broader implications as it could be a way of treating brain diseases where brain energetics are downregulated, such as neurodegeneration and dementia.”

Professor Gourine added: “We know that brain energy homeostasis is progressively impaired in ageing and this process is accelerated during the development of neurodegenerative diseases such as Alzheimer’s disease. Our study identifies an attractive readily druggable target and therapeutic opportunity for brain energy rescue for the purpose of protecting brain function, maintaining cognitive health, and promoting brain longevity.”

The researchers were supported by Wellcome, and the study involved scientists at UCL, Lancaster University, Imperial College London, King’s College London, Queen Mary University of London, University of Bristol, University of Warwick, and University of Colorado.



Journal

Nature

DOI

10.1038/s41586-024-07611-w

Method of Research

Experimental study

Subject of Research

Animals

Article Title

Adenosine signalling to astrocytes coordinates brain metabolism and function

Article Publication Date

3-Jul-2024

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